Metal-organic framework microlasers

The discovery and continued development of the lasers have led to a revolution in both fundamental researches and optoelectronic industry. Recently, micro/nanolasers that can generate intense coherent light signals at (sub)wavelength scale have become a research focus due to their potential applicat...

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Bibliographic Details
Published inScience bulletin Vol. 62; no. 1; pp. 3 - 4
Main Authors Liu, Yuan, Dong, Haiyun, Hu, Fengqin, Zhao, Yong Sheng
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 15.01.2017
Subjects
Excel
光电集成电路
基础研究
微型激光器
持续发展
有机材料
纳米激光器
金属有机骨架
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Summary:The discovery and continued development of the lasers have led to a revolution in both fundamental researches and optoelectronic industry. Recently, micro/nanolasers that can generate intense coherent light signals at (sub)wavelength scale have become a research focus due to their potential applications in a variety of fields ranging from chemical and biological sensing to integrated optoelectronic circuitry [1,2]. Organic materials are a kind of excel- lent gain media in fabricating high-performance miniaturized lasers towards low threshold and broad tunability because of their superiority in easy processing, large optical cross-sections, and wide emission band [3]. However, most organic materials usually suffer from aggregation-caused quenching (ACQ) and relatively poor stability, which has hindered the further development of the organic micro/nanolaser field.
Bibliography:The discovery and continued development of the lasers have led to a revolution in both fundamental researches and optoelectronic industry. Recently, micro/nanolasers that can generate intense coherent light signals at (sub)wavelength scale have become a research focus due to their potential applications in a variety of fields ranging from chemical and biological sensing to integrated optoelectronic circuitry [1,2]. Organic materials are a kind of excel- lent gain media in fabricating high-performance miniaturized lasers towards low threshold and broad tunability because of their superiority in easy processing, large optical cross-sections, and wide emission band [3]. However, most organic materials usually suffer from aggregation-caused quenching (ACQ) and relatively poor stability, which has hindered the further development of the organic micro/nanolaser field.
10-1298/N
ISSN:2095-9273
2095-9281
DOI:10.1016/j.scib.2016.12.002